# coding=utf-8
'''
Created on 2013-4-26

@author: Administrator
'''

class simhash:
   
    #构造函数
    def __init__(self, tokens='', hashbits=128):       
        self.hashbits = hashbits
        self.hash = self.simhash(tokens);
   
    #toString函数   
    def __str__(self):
        return str(self.hash)
   
    #生成simhash值   
    def simhash(self, tokens):
        v = [0] * self.hashbits
        for t in [self._string_hash(x) for x in tokens]: #t为token的普通hash值          
            for i in range(self.hashbits):
                bitmask = 1 << i
                if t & bitmask :
                    v[i] += 1 #查看当前bit位是否为1,是的话将该位+1
                else:
                    v[i] -= 1 #否则的话,该位-1
        fingerprint = 0
        for i in range(self.hashbits):
            if v[i] >= 0:
                fingerprint += 1 << i
        return fingerprint #整个文档的fingerprint为最终各个位>=0的和
   
    #求海明距离
    def hamming_distance(self, other):
        x = (self.hash ^ other.hash) & ((1 << self.hashbits) - 1)
        tot = 0;
        while x :
            tot += 1
            x &= x - 1
        return tot
   
    #求相似度
    def similarity (self, other):
        a = float(self.hash)
        b = float(other.hash)
        if a > b : return b / a
        else: return a / b
   
    #针对source生成hash值   (一个可变长度版本的Python的内置散列)
    def _string_hash(self, source):       
        if source == "":
            return 0
        else:
            x = ord(source[0]) << 7
            m = 1000003
            mask = 2 ** self.hashbits - 1
            for c in source:
                x = ((x * m) ^ ord(c)) & mask
            x ^= len(source)
            if x == -1:
                x = -2
            return x
            

if __name__ == '__main__':
    s = 'This is a test string for testing'
    hash1 = simhash(s.split())
   
    s = 'This is a test string for testing also'
    hash2 = simhash(s.split())
   
    s = 'nai nai ge xiong cao'
    hash3 = simhash(s.split())
   
    print(hash1.hamming_distance(hash2) , "   " , hash1.similarity(hash2))
    print(hash1.hamming_distance(hash3) , "   " , hash1.similarity(hash3))